A display system includes an HMD mounted on a head of a user, and a smartphone to which the HMD is coupled, and the smartphone includes a touch sensor that accepts a position input operation and detects coordinates of an operating position with reference to set coordinate axes, a magnetic sensor that detects an orientation of the touch sensor, and an adjustment unit that adjusts an orientation of the coordinate axes, based on a detection result of the magnetic sensor.

An information processing device including a display unit, a detector, and a first control unit. The display unit capable of providing the user with a field of view of a real space. The detector detects an azimuth of the display unit around at least one axis. The first control unit includes a region limiter, a storage unit, and a display control unit. The region limiter is capable of limiting a display region of the field of view along a direction of the one axis in three-dimensional coordinates surrounding the display unit. The storage unit stores images including information relating to a predetermined target present in the field of view with the images being made corresponding to the three-dimensional coordinates. The display control unit is configured to display, based on an output of the detector, an image in the three-dimensional coordinates, which corresponds to the azimuth, in the field of view.

Systems, methods, and devices implement line-based rendering of graphics. Methods include receiving a command associated with graphical data, the command identifying a plurality of pixel mapping operations to be implemented on a plurality of data objects included in the graphical data. Methods also include determining a plurality of rendering parameters, the plurality of rendering parameters identifying a partitioning of the graphical data into a plurality of portions, and further identifying a pixel mapping operation for each of the plurality of portions. Methods further include generating a plurality of sub-commands based, at least in part, on the plurality of rendering parameters and the command, the plurality of sub-commands identifying a processing operation for each data object included in each of the plurality of portions of the graphical data. Methods also include implementing a processing operation for at least one portion based on at least some of the plurality of sub-commands.

A vehicle includes a display device that is visible from a front side, a measurement unit configured to measure a distance between the vehicle and a front vehicle which travels in the same direction as the vehicle, and a display control unit configured to horizontally invert display content on the display device based on the measured distance.

A visualization system provides graphics for presentation on displays of multiple users who may be wearing head-mounted displays (HMDs). In an embodiment, the system determines that a first gaze direction of a first user is directed toward a first display. The system determines user inputs performed by the first user. The user inputs may be hands-free such as gestures of a hand or finger or voice commands. The system generates a graphical annotation using the user inputs. The system provides the graphical annotation to a first HMD for presentation to the first user. The system determines a second display paired to the first display. The system provides the graphical annotation to a second HMD for presentation to a second user looking at the second display. The displays may include a physical display or a virtual display, for example, in an augmented reality environment.

Systems, methods, and non-transitory computer readable media containing instructions for causing at least one processor to perform operations for determining a display configuration for presenting virtual content are provided. In one implementation, the processor is configured for receiving image data from an image sensor associated with a wearable extended reality appliance; analyzing the image data to detect a particular input device placed on a surface; determining a value of at least one use parameter for the particular input device; retrieving from memory default display settings associated with the particular input device; determining a display configuration for presenting virtual content based on the value of the at least one use parameter and the retrieved default display settings; and causing a presentation of the virtual content via the wearable extended reality appliance according to the determined display configuration.

The disclosure relates to a user interface presentation method and apparatus, a computer-readable medium and an electronic device. The method comprises: performing, according to the axis of symmetry of a to-be-flipped user interface, mirror image flipping on said user interface, so as to obtain a first interface; determining a first target element in the first interface; performing mirror image flipping on the first target element in the first interface according to the axis of symmetry of the first target element to form a second target element, so as to obtain a second interface; and presenting the second interface. Thus, the flipping of a user interface is realized by means of mirror image flipping, so as to adapt to reading habits of a user.

An embodiment for adjusting digital content in a flexible display device is provided. The embodiment may include receiving data relating to a position and orientation of a reference device relative to a user. The embodiment may also include identifying an orientation of a display surface of a mobile device and a relative position of the mobile device relative to a viewing direction of the user. The embodiment may further include identifying an optimal viewing angle of display content on the display surface of the mobile device. The embodiment may also include in response to determining the display content is not able to be displayed as a hologram, aligning the display content as text based on the optimal viewing angle. The embodiment may further include presenting the aligned display content as text to the user.

The disclosure relates to a method for controlling a display direction of an electronic device. A method operating the electronic device includes displaying content on a screen of the electronic device, determining a display direction of content on the basis of a user profile upon detecting a tilt change of the electronic device by using a sensor, and displaying the content on the screen depending on the determined display direction.

A display apparatus and a controlling method thereof are provided. The display apparatus includes: a display panel; at least one sensor configured to detect a distance to an external object; a driver configured to rotate the display panel while a front surface of the display panel maintains a facing direction; and a processor configured to: based on an event for rotating the display panel occurring, control the driver to rotate the display panel, and based on detecting, via the at least one sensor, the object within a predetermined distance in a rotating direction of the display panel while the display panel rotates, control the driver to stop rotating the display panel, wherein the predetermined distance has different values according to a rotating angle by which the display panel has rotated from a position of the display panel before the event occurred.